ULITRANS Ruedas Libres Freewheels · ULITRANS INGENIEROS S . L. San Vicente, 8 - Edificio Albia 1 -...
Transcript of ULITRANS Ruedas Libres Freewheels · ULITRANS INGENIEROS S . L. San Vicente, 8 - Edificio Albia 1 -...
RULITRANS
INGENIER
OS S.L.
San Vicente, 8 - Edificio Albia 1 - 6º - Dpto. 248001 Bilbao (Bizkaia)
Telf. +34 94 423 97 27 - Fax +34 94 423 95 26www.rulitrans.com
E-mail: [email protected]
RULITRANS
INGENIER
OS S.L.
AUTOMATIZACIONES INDUSTRIALES- Ingeniería de diseño- Proyectos llave en mano- Talleres de mecanización
ESPECIALISTAS EN LA TRANSMISIÓN- Ruedas libres- Limitadores de par- Embragues bidireccionales tipo IR- Embragues y frenos- Elementos cónicos de fijación- Células de carga- Variadores de velocidad- Tarjetas maniobras eléctricas- Acoplamientos elásticos
Andrés Cortina 2 A - 3
Algorta (Bizkaia) 48993 Tno: 946567955
Ruedas Libres Freewheels
(V.11.17.EN)
��Backstop ��Indexing unit ��Overrunning clutch
V.01.19.EN Page 1 de 24
FREEWHEELS
A ________________ PAG. 4 AB – AB I ________________ PAG. 5 AB II ________________ PAG. 6 AE ________________ PAG. 7 AR ________________ PAG. 9 ATGFR ________________ PAG. 10 ATGFR A1 A2 ________________ PAG. 11 ATGFR A2 A7 ________________ PAG. 12 ATGFR A2 A3 ________________ PAG. 13 ATGFR A3 A4 ________________ PAG. 14
ATR ________________ PAG. 15 BN I ________________ PAG. 17 BN II ________________ PAG. 18 BN III ________________ PAG. 19 AFON ________________ PAG. 20 BTI ________________ PAG. 21 AI – ARI ________________ PAG. 22 JM (CAGES) ________________ PAG. 23 ECI (CAGES) ________________ PAG. 24
Manufacturing:
RULISA freewheels are basically designed with two cylindrical races within which a metallic cage is
housed with sprags, each one provided with positions which cover the annular space.
Each of the individual sprags blocks and transmits the stress from one track to the other in one direction
only. Compared with the traditional roller freewheels, these ones have the advantage of being provided
with a higher number of backstop elements for the same race diameter; so that it can transmit a greater
torque moment. These elements constantly change position on the raceways and therefore their wear
and tear is uniform (and not only on a specific surface as in roller wheels). This ensures a significantly
longer life span for the Free Wheel.
Ways of extending service life
The standard freewheels are supplied with hardened and ground tracks of 1,5 to 2 mm depth; and steel
bearing chrome sprags.
In those cases in which top durability is required the following options are possible:
Surface ”S” treatment of the backstop elements with a carbonitride titanium coat, which allows the maintenance of the driving specifications and the extension of their service life from 5 up to 20 times. We are now researching into the surface treatment field in order to improve our designs with latest technology When requesting, please add the letter “S” to the end of the freewheel designation (e.g. A90S freewheel).
V.01.19.EN Page 2 de 24
Outer Centrifugal elevation
Inner Centrifugal Elevation
Centrifugal detachment by quick turn in the free direction of the E outer ring or of the I inner ring
When ‐one of the rings rotates quickly, the backstop elements swing, due to their shape, which has the
center of gravity of the element slippages from its rotary shaft, and stop making contact with the tracks
when it rotates in the free direction once the elevating speed is overcome. With this solution and being
free, no friction is produced and thus the working life is indefinitely extended.
All series can be supplied with E outer centrifugal elevation with neither shape modifications, nor price
changes, exception made when they have centrifugal elevation by quick rotary motion of the inner ring,
for which the special series ECI, BTI and AI have been designed.
Lubrication
Freewheels with bearings and oil bath are supplied full of oil. The freewheels supplied with neither
bearings nor oil bath must be accurately assembled in order to guarantee true running between tracks
and must have a proper, lubrications to protect them.
Initially, the oil must be changed after one hundred hours of work and, later every two thousand hours
along with a thorough check of the retainers.
A free blending agent oil with an Engler 4º or 6º viscosity at 50ºC(hydraulic type oils) is advisable in
order to avoid variations in the friction coefficient and , consequently for the torque moments to be
transmitted.
In case of centrifugal elevation, when the assembly is running at a speed higher than the elevation
speed, it is only necessary to grease or oil during the assembly in order to avoid rusting.
Torque moment selection
The torque moments’ listed in the tables have a safety factor higher than 2; i.e., Higher peak torques
than double of those listed must not be used.
V.01.19.EN Page 3 de 24
Speeds
The maximum speeds as free rotary backstopping are mentioned in the catalogue for durability of 8000
hours´ work. Service life could be widely extended by means of “S” superficial treatment. For
intermittent feeds service life will depend on the frequency and on the angle as well as on its accuracy
and other factors. Therefore, please request our engineers to propose you a cost‐effective technical
solution for your specific needs.
When a freewheel is chosen to work as an automatic overrunning clutch, for instance between a main
motor and auxiliary starting motor, customers should bear in mind that the driving element drag speed
must not be higher than 40 % of the centrifugal speed. In fact, we suggest you request our engineers for
technical advice since we can modify the lifting speed by changing the string pressures
Used as backstop element In this case one of the tracks must be kept fixed. The aim is to allow the assembling rotary motion in one direction only. Typical applications are: belt conveyors, bucket lifters, pumps, reducers, motors, ropeways, etc Used as an indexing unit It changes, by means of indexation, a circular movement into a linear one in one direction. Typical applications are: feeders in textile machinery, printing press, wrapping and packing machinery, wire conversion, press feeders, continuous furnaces, agricultural machinery, grinders, planning machines, etc. A feeding exact pitch at high frequencies can be guaranteed since the drive by the individual springs upon the sprag is continuous, so no backlash is produced. Used as an overrunning clutch It allows, by means of overrunning, the automatic disconnection of the two driving elements that rotate at different speeds; it also secures the absence of the inertia mass influence in the assembly. Typical applications are: starting of electric motors, combustions engines, turbines, generators, gas circulators, etc. Fine feeds of machinery readiness, quick positioning feeds in automatic gear boxes, laminators, continuous furnaces etc. Unplugging the inertial mass in fans, centrifugal machinery, etc.
V.01.19.EN Page 4 de 24
A TYPE FREEWHEEL
RULISA freewheeling designations beginning with “A” refer to freewheels provided with bearings. This “A” series is a symmetric wheel for lateral clamping with threaded holes in the outer ring. It is supplied with oil bath and three lubrication holes for its maintenance. They can be supplied with intermediate shaft holes corresponding to engine standardized shafts. Larger sizes or non‐standard sizes can be supplied within short delivery times. Please request it to our engineers. For orders calling for backstop elements with “S” treatment, please ask for an “S” type (e.g. A‐75 S freewheel Ø25)
Z= number of threaded holes in the ØC
Size d H7 Standard or S treatment
Centrifugal ElevationE
ØD h6 ØC
Z B L A
min. mm
max. mm
Torque Nm
max speed rpm
TorqueNm
Elev. Speed. rpm
mm mm mm mm mm
42 12 15* 85 3500 ‐‐‐‐ ‐‐‐‐‐‐‐ 62 51 3M5 8 55 1
48 15 20* 170 2500 ‐‐‐‐ ‐‐‐‐‐‐‐ 68 56 3M5 8 52 1
55 12 22* 220 2500 170 2900 75 65 4M6 10 48 0,5
62 20 25* 315 2100 250 2200 90 75 6M6 10 50 0,5
75 25 32* 600 1700 450 2000 100 88 6M8 12 65 0,5
90 35 42* 1200 1200 800 1500 125 108 12M8 12 74 1
100 45 50* 1800 800 1700 1400 135 115 12M10 16 75 2
125 60 65* 2700 600 2500 1300 170 150 12M10 16 90 2,5
145 70 75* 6000 500 5000 1200 200 180 12M12 18 112 3
180 90 100* 12000 300 10000 1000 250 225 12M16 25 150 5
*keyway according to DIN 6885 page 3; other according to page 1 Safety coefficient 2.
We keep the right to make modifications for product improvements.
V.01.19.EN Page 5 de 24
AB, ABI, ABII TYPE FREEWHEEL
The RULISA freewheel series share characteristics with those of “A” type. AB type is designed for lateral clamping on the tracks of the elements such as gears, pulleys, etc., with hole diameter tolerance H7. ABI type is also designed for lateral clamping to drive attachment. It is supplied with a flange in order to guarantee concentricity. ABII type has a keyway in the outer diameter and lateral stops to allow fixing with this system.
AB
AB I
Z = Number of clamping screws
*keyway according to DIN 6885 page 3; other according to page 1 Safety coefficient =2. Rotating direction. Please specify in the order the shaft rotating direction seen ``from X´´ when the outer ring is fixed.
We keep the right to make modifications for product improvements.
Size d H7
Standard or S treatment
Centrifugal Elevation E
ØD h6
ØD₁ ØD₂ ØD₃ h7
ØD₄ Z L C A E
min. mm.
max. mm.
Torque Nm
max speed rpm
Torque Nm
Elev. Speedrpm
mm mm mm mm mm mm mm mm mm
42 12 15* 85 3500 ‐‐‐‐ ‐‐‐‐‐‐‐ 62 85 72 55 70 3M5 55 10 1 3
48 15 20* 170 2500 ‐‐‐‐ ‐‐‐‐‐‐‐ 68 92 78 55 76 3M5 52 11 1 3
55 12 22* 220 2500 170 2900 75 98 85 65 84 8M5 48 11 0,5 3
62 20 25* 315 2100 250 2200 90 118 104 80 99 8M6 50 12 0,5 3,5
75 25 32* 600 1700 450 2000 100 128 114 90 109 12M6 65 12 0,5 3,5
90 35 42* 1200 1200 800 1500 125 160 142 110 135 12M8 74 14 1 4
100 45 50* 1800 800 1700 1400 135 180 155 130 145 8M10 75 16 2 4
125 60 65* 2700 600 2500 1300 170 214 192 140 182 10M10 90 18 2,5 4
145 70 75* 6000 500 5000 1200 200 250 225 160 220 12M12 112 20 3 4
180 90 100* 12000 300 10000 1000 250 315 280 210 280 12M16 150 22 5 5
V.01.19.EN Page 6 de 24
AB II
Z = Number of clamping screws
*keyway according to DIN 6885 page 3; other according to page 1; Safety coefficient =2.
Rotating direction. Please specify in the order the shaft rotating direction seen ``from X´´ when the outer ring is fixed.
We keep the right to make modifications for product improvements.
Size d H7
Standard or S treatment
Centrifugal Elevation E
ØD h6
ØD₄ Z L C A E l t b p10
min. mm.
max. mm.
Torque Nm
max speed rpm
Torque Nm
Elev. Speedrpm
mm mm mm mm mm mm mm mm mm
42 12 15* 85 3500 ‐‐‐‐ ‐‐‐‐‐‐‐ 62 70 3M5 55 85 72 55 28 2,5 4
48 15 20* 170 2500 ‐‐‐‐ ‐‐‐‐‐‐‐ 68 76 3M5 52 92 78 55 28 3 5
55 12 22* 220 2500 170 2900 75 84 8M5 48 98 85 65 25 3,5 6
62 20 25* 315 2100 250 2200 90 99 8M6 50 118 104 80 25 4 8
75 25 32* 600 1700 450 2000 100 109 12M6 65 128 114 90 40 4 8
90 35 42* 1200 1200 800 1500 125 135 12M8 74 160 142 110 44 5 12
100 45 50* 1800 800 1700 1400 135 145 8M10 75 180 155 130 39 5,5 14
125 60 65* 2700 600 2500 1300 170 182 10M10 90 214 192 140 49 7 18
145 70 75* 6000 500 5000 1200 200 220 12M12 112 250 225 160 66 9 22
180 90 100* 12000 300 10000 1000 250 280 12M16 150 315 280 210 96 9 25
V.01.19.EN Page 7 de 24
AE TYPE FREEWHEEL
Our AE type Freewheel is designed for well aligned axel joints including an elastic coupling system. It is supplied with an oil bath. The coupling system included is high quality and has high resistance to oils and a long life span. When ordering, it is required to provide the direction of the rotation when looking straight at the coupling system. IMPORTANT: When fitting the Freewheel to create centrifugal lift of the blocking elements, the side of the coupling system needs to be seen on the side of the drive system we want in movement and the axel of the freewheel on the side that remains still. When we want to transmit the movement from the side of the freewheel, the installation must be shut down or the speed reduced to near 0 rpm, so that all the blocking elements have connected with the rolling surfaces.
Size
Ød₁ H7 max.
Ød₂ H7 max.
Standard Centrifugal Elevation E
A B
C D F H** L M** L 1
mm
mm
Torque Nm
Max speed rpm
Torque Nm
Elev. Speed. rpm
mm
mm
mm
mm
mm
mm
mm
mm
mm
55 20‐32* 55‐62* 220 2500 170 2900 105 45 72 75 0,5 35 48 43 114
62 22‐25* 55‐60* 315 2100 250 2200 120 47 70 90 0,5 31 50 40 114
75 30‐32* 60‐65* 600 1700 450 2000 135 62 75 100 0,5 36 65 45 139
90 40‐42* 65‐70* 1200 1200 800 1500 150 70 80 125 1 40 74 50 156
100 45‐50* 75‐80* 1800 800 1700 1400 175 69 95 135 2 46 75 58 169
125 60‐65* 105‐110* 2700 600 2500 1300 200 81 130 170 2,5 54 90 67 194
145 70‐75* 135‐150* 6000 500 5000 1200 245 102 170 200 3 90 112 110 268
180 90‐100* 165‐175* 12000 300 10000 1000 300 136 200 250 5 150 150 173 378
*keyway according to DIN 6885 page 3; other according to page 1; Safety coefficient= 2 ** The exit of the coupling system can be supplied with larger cube dimensions. We keep the right to make modifications fore product improvements.
V.01.19.EN Page 8 de 24
ANGULAR RADIAL AXIAL
Size Axial
desalination Radial
desalination Angular
desalination
55 0,5 – 1,6 0,6 1° 10´
62 0,5 – 1,7 0,7 1° 10´
75 0,6 – 2,0 0,7 1° 10´
90 0,7 – 2,2 0,8 1° 10´
100 0,8 – 2,5 0,8 1° 10´
125 1,2 – 3,5 0,8 1° 10´
145 1,2 – 4,0 1,0 1° 10´
180 2,0 – 5,0 1,2 1° 10´
V.01.19.EN Page 9 de 24
AR TYPE FREEWHEEL
Our AR RULISA freewheels are designed to work as backstop elements at the end of a shaft and to be fitted to the housing with a removable bolt. When the freewheel works as a backstop element in a housing, it is advisable to assemble the bolt with a clearance of at least 0,5 mm in order to balance misalignment. The bolt must be adjusted and lined up when the freewheel is used as overrunning unit. This freewheel is designed to work at high indexing speeds. For idling speeds, please refer to ARR series which carry antifriction elements instead of bearings. When the freewheel works as backstop element at high speeds please refer to ARI type.
Size d H7 Standard / S treatment ØD h7
ØK ØH J G A B C L F
min
mm
max
mm
Torque
Nm
Max. Speed Rpm
mm
mm
mm
mm
mm
mm
mm
mm
mm
mm
42 12 15* 85 3500 62 32 10 44 10 1 8 59 55 30
30 15 20* 170 2500 68 37 10 47 10 1 8 62 52 30
55 12 22* 220 2500 75 50 12 54 11 0,5 10 72 48 55
62 20 25* 315 2100 90 55 16 62 14 0,5 10 84 50 70
75 25 32* 600 1700 100 70 16 68 14 0,5 12 92 65 75
90 35 42* 1200 1200 125 85 20 85 18 1 12 112 74 95
100 45 50* 1800 800 135 95 25 102 22 2 15 135 75 110
125 60 65* 2700 600 170 115 32 112 25 2,5 15 145 90 130
145 70 75* 6000 500 200 140 38 135 30 3 16 165 112 150
180 90 100* 12000 300 250 170 50 180 40 5 16 230 150 230
keyway according to DIN 6885 page 3; other according to page 1 Safety coefficient: 2. Rotating direction: please check it before assembling. If we do not have the desired direction just put the lever on the opposite side. We keep the right to make modifications for product improvements.
V.01.19.EN Page 10 de 24
ATGFR TYPE FREEWHEEL
Our Free Wheels type ATGFR can be supplied with different types of covers according to needs
d H7 mm
Torque Nm
B
mm
C
mm
D h7 mm
E mm
F mm
G
H mm
L
mm
T
mm
Z
20 200 34 2,4 75 30 55 M5 8 57 64 4
25 450 35 2,4 90 40 68 M6 10 60 78 4
30 480 43 2,4 100 45 75 M6 10 68 87 6
35 700 45 2,9 110 50 80 M6 12 74 96 6
40 700 53 2,9 125 55 90 M8 14 86 108 6
45 2000 53 2,9 130 60 98 M8 14 86 112 8
50 2000 64 3,9 150 70 110 M8 14 94 132 8
55 2000 66 2,9 160 75 115 M10 16 104 138 8
60 3000 78 5,4 170 80 125 M10 16 114 150 10
70 3000 95 6,4 190 90 140 M10 16 134 165 10
80 4000 100 3,9 210 105 160 M10 16 144 185 10
90 10000 115 4,9 230 120 180 M12 20 158 206 10
100 10000 120 5,4 270 140 210 M16 24 182 240 10
130 15000 152 7,9 310 160 240 M16 24 212 278 12
150 26000 180 6,9 400 200 310 M20 32 246 360 12
Keyway according to DIN 6885 page 1 Safety coefficient: 2. “Z”= number of threaded holes G, over the primitive diameter T We keep the right to make modifications for product improvements.
V.01.19.EN Page 11 de 24
ATGFR A1 A2 TYPE FREEWHEEL
Z = Number of clamping screws; B = Diameter hole on the primitive diameter D2
dH7 mm
Torque Nm
A
mm
D h7 mm
E mm
A mm
B
L mm
N mm
T mm
Z
20 200 98 75 30 1 5,5 57 10,5 85 4
25 450 118 90 40 1 6,6 60 11,5 104 4
30 480 128 100 45 1 6,6 68 11,5 114 6
35 700 140 110 50 1 6,6 74 13,5 124 6
40 700 160 125 55 1 6,6 86 15,5 142 6
45 2000 165 130 60 1 9 86 15,5 146 8
50 2000 185 150 70 1 9 94 14 166 8
55 2000 204 160 75 1 9 104 18 182 8
60 3000 214 170 80 1 11 114 17 192 10
70 3000 234 190 90 1 11 134 18,5 212 10
80 4000 254 210 105 1 11 144 21 232 10
90 10000 278 230 120 1 14 158 20,5 254 10
100 10000 335 270 140 1 18 182 30 305 10
130 15000 380 310 160 1 18 212 29 345 12
150 26000 485 400 200 1 22 246 32 445 12
Keyway according to DIN 6885 page 1 Safety coefficient= 2
When ordering, please specify the sense of the rotation seen from X: “D”= the inside ring rotates freely clockwise “I”= the inside ring rotates freely anticlockwise
We keep the right to make modifications for product improvements.
V.01.19.EN Page 12 de 24
ATGFR A2 A7 TYPE FREEWHEEL
Z= Number of clamping screws; B = Diameter hole on the primitive diameter D2
dH7 mm
Par Nm
D1 mm
D h6 mm
K mm
A mm
B
K mm
L mm
L₁ mm
N mm
C mm
D3 h6 mm
D2 mm
Z
20 200 98 75 30 1 5,5 3 57 59 10,5 10,5 55 85 4
25 450 118 90 40 1 6,6 3 60 62 11,5 11,5 68 104 4
30 480 128 100 45 1 6,6 3 68 70 11,5 11,5 75 114 6
35 700 140 110 50 1 6,6 3,5 74 76 13,5 13 80 124 6
40 700 160 125 55 1 6,6 3,5 86 88 15,5 15 90 142 6
45 2000 165 130 60 1 9 3,5 86 88 15,5 15 95 146 8
50 2000 185 150 70 1 9 4 94 96 14 13 110 166 8
55 2000 204 160 75 1 9 4 104 106 18 17 115 182 8
60 3000 214 170 80 1 11 4 114 116 17 16 125 192 10
70 3000 234 190 90 1 11 4 134 136 18,5 17,5 140 212 10
80 4000 254 210 105 1 11 4 144 146 21 20 160 232 10
90 10000 278 230 120 1 14 4,5 158 160 20,5 19 180 254 10
100 10000 335 270 140 1 18 5 182 184 30 28 210 305 10
130 15000 380 310 160 1 18 5 212 214 29 27 240 345 12
150 26000 485 400 200 1 22 5 246 248 32 30 310 445 12
Keyway according to DIN 6885 page 1 Safety coefficient= 2 When ordering, please specify the sense of the rotation seen from X:
“D”= the inside ring rotates freely clockwise “I”= the inside ring rotates freely anticlockwise
We keep the right to make modifications for product improvements.
V.01.19.EN Page 13 de 24
ATGFR A2 A3 TYPE FREEWHEEL
Par Nm
G mm
D mm
A mm
L mm
F mm
B mm
C mm
d1 mm
E mm
20 200 72 75 1 57 54 15 11 12 M 16 x 1,5
25 450 84 90 1 60 62 18 14 16 M 20 x 2
30 480 92 100 1 68 68 22 14 16 M 20 x 2
35 700 102 110 1 74 76 22 18 20 M 24 x 2
40 700 112 125 1 86 85 26 18 20 M 24 x 2
45 2000 120 130 1 86 90 26 22 25 M 30 x 2
50 2000 135 150 1 94 102 30 22 25 M 30 x 2
55 2000 142 160 1 104 108 30 25 32 M 35 x 2
60 3000 145 170 1 114 112 35 25 32 M 35 x 2
70 3000 175 190 1 134 135 35 30 38 M 42 x 2
80 4000 185 210 1 144 145 45 30 38 M 42 x 2
90 10000 205 230 1 158 155 45 40 50 M 55 x 2
100 10000 230 270 1 182 180 45 40 50 M 55 x 2
130 15000 268 310 1 212 205 60 55 68 M 72 x 2
150 26000 325 400 1 246 255 60 55 68 M 72 x 2
Keyway according to DIN 6885 page 1 Safety coefficient= 2 When ordering, please specify the sense of the rotation seen from X:
“D”= the inside ring rotates freely clockwise “I”= the inside ring rotates freely anticlockwise
We keep the right to make modifications for product improvements.
V.01.19.EN Page 14 de 24
ATGFR A3 A4 TYPE FREEWHEEL
dH7 mm
Par Nm
G mm
D mm
A mm
L
mm
O mm
F
mm
B
mm
C
mm
d1 mm
E
mm
20 200 72 75 1 57 82 54 15 11 12 M 16 x 1,5
25 450 84 90 1 60 85 62 18 14 16 M 20 x 2
30 480 92 100 1 68 95 68 22 14 16 M 20 x 2
35 700 102 110 1 74 102 76 22 18 20 M 24 x 2
40 700 112 125 1 86 115 85 26 18 20 M 24 x 2
45 2000 120 130 1 86 115 90 26 22 25 M 30 x 2
50 2000 135 150 1 94 123 102 30 22 25 M 30 x 2
55 2000 142 160 1 104 138 108 30 25 32 M 35 x 2
60 3000 145 170 1 114 147 112 35 25 32 M 35 x 2
70 3000 175 190 1 134 168 135 35 30 38 M 42 x 2
80 4000 185 210 1 144 178 145 45 30 38 M 42 x 2
90 10000 205 230 1 158 192 155 45 40 50 M 55 x 2
100 10000 230 270 1 182 217 180 45 40 50 M 55 x 2
130 15000 268 310 1 212 250 205 60 55 68 M 72 x 2
150 26000 325 400 1 246 286 255 60 55 68 M 72 x 2
Keyway according to DIN 6885 page 1 Safety coefficient= 2 When ordering, please specify the sense of the rotation seen from X:
“D”= the inside ring rotates freely clockwise “I”= the inside ring rotates freely anticlockwise
We keep the right to make modifications for product improvements.
V.01.19.EN Page 15 de 24
ATR TYPE FREEWHEEL The ATR Freewheel is designed to be used as intermittent advance or non‐return units. They are equipped with permanent lubrication sealed by bronze bushings, therefore not requiring maintenance. When fitting them, it is important the fastening pin leaves the handle free in the axel direction, so the friction rings are not deteriorated. Leave at least 1 mm. each side of level G. Upon request, we can supply other handles that better meet your needs.
Size
d H7 (Standard)
Torque
Max. Speed
A D I L C J GB11 H F
mm
Nm
rpm
mm
mm
mm
mm
mm
mm
mm
mm
mm
ATR 75 20 25 30 35 840 350 162 100 15 48 112 102 18 37 40
ATR 90 40 45 50 55 1960 250 187 125 15 52 125 115 18 40 60
ATR 125 60 70 80 3600 200 250 170 25 65 165 150 22 55 70
ATR 145 90 100 4800 200 325 220 25 70 215 200 40 70 80
ATR 180 100 120 130 6000 200 355 250 30 70 230 215 40 70 100
Keyway according to DIN 6885 page 1 Safety coefficient= 2 We keep the right to make modifications for product improvements.
V.01.19.EN Page 16 de 24
BNI, BNII, BNIII TYPE FREEWHEEL
These RULISA freewheels have been designed to work in gearboxes, gears, etc. where the true running of the tracks is guaranteed in the assembling, through bearings able support the radial and axial loads required. BNII type has the same diameter dimensions´ as the 6.300 bearing series. BNIII type has the same dimensions’ and adjusting manner as the 6.200 bearing series. They can be used as backstop elements, as indexing elements or as overrunning clutches. For performance quality in where a larger service life is required, the use of “S” Titanium carbonitride treatment or the use of centrifugal elevation is advisable. For assembly purposes, BNI and BNII type freewheels have keyways in the lateral side only. Please specify the inner ring free rotating direction keeping the outer ring fixed on the key side. If the rotating direction is changed by mistake, please release one of the circlips, turn the freewheel cage down and assemble it again; thus the rotating direction will be modified.
V.01.19.EN Page 17 de 24
TYPE BNI
BNI
dH7 mm
Torque Nm
Max Speed rpm
Ø Dn₆ mm
Ø d₁ mm
Ø d₂ mm
L mm
t mm
b H₁₁ mm
8 20 6.000 37 20 26 20 3 6
10 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐
12 20 6.000 37 20 26 20 3 6
15 60 5.000 47 30 36 20 3,5 7
17 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐
20 90 3.500 62 35 42 36 3,5 8
25 300 2.100 80 44 62 32 4 8
30 300 2.100 90 44 62 32 5 12
35 700 1.700 100 57 75 40 5 10
40 700 1.700 120 57 75 40 7 15
45 1.400 1.200 120 72 90 50 6 12
50 1.400 1.200 130 72 90 50 8,5 17
55 1.900 800 140 82 100 50 7 14
60 1.900 800 150 82 100 50 9 18
70 2.800 600 170 107 125 50 8 16
80 6.000 600 190 107 125 80 9 18
90 8.000 500 215 127 145 85 11,5 24
100 11.500 500 260 127 145 115 14,5 28
130 15.000 300 300 162 180 120 17 32
Keyway according to DIN 6885 page 1 Safety coefficient: 2. bH₁₁= lateral keyway width. We keep the right to make modifications for product improvements.
V.01.19.EN Page 18 de 24
TYPE BNII
BNII
dH7 mm
Torque Nm
Max Speed rpm
ØD₁n₆ mm
Ø d₃ mm
Ø d₄ mm
L₁ mm
t₁ mm
b₁ H₁₁ mm
8 20 6.000 35 20 26 16 1,3 4
10 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐
12 20 6.000 35 16 22 16 1,3 4
15 50 5.000 42 25 32 20 1,3 5
17 65 4.000 47 30 37 20 2 5
20 85 3.500 52 35 42 21 2,5 6
25 85 3.500 62 35 42 24 3,5 8
30 250 2.100 72 44 62 27 3,5 10
35 400 2.000 80 50 68 31 3,5 12
40 500 1.700 90 57 75 33 3,5 12
45 700 1.700 100 57 75 36 3,5 14
50 1.200 1.200 110 72 90 40 4,5 14
55 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐
60 1.500 800 130 82 100 46 5,5 18
70 2.200 600 150 107 125 51 6,5 20
80 2.500 600 170 107 125 58 7,5 20
90 3.000 500 190 127 145 58 11,5 24
100 4.000 300 215 162 180 65 14,5 28
130 8.000 300 280 162 180 95 17 32
Keyway according to DIN 6885 page 1 Safety coefficient: 2. bH₁₁= lateral keyway width. We keep the right to make modifications for product improvements.
V.01.19.EN Page 19 de 24
TYPE BNIII
Keyway according to DIN 6885 page 1 Safety coefficient: 2. bH₁₁= lateral keyway width. We keep the right to make modifications for product improvements.
BNIII
dH7 mm
PAR Nm
Vel.Max rpm
Ø D₂n₆ mm
Ø d₅ mm
Ø d₆ mm
L₂ mm
40 400 2.000 80 50 68 18
45 480 1.700 85 57 75 19
50 480 1.700 90 57 75 20
55 ‐ ‐ ‐ ‐ ‐ ‐
60 700 1.200 110 72 90 22
70 1.000 800 125 82 100 24
80 1.500 600 140 107 125 26
90 2.800 500 160 127 145 30
100 2.800 500 180 127 145 34
130 ‐ ‐ ‐ ‐ ‐ ‐
V.01.19.EN Page 20 de 24
AFON TYPE FREEWHEEL
Size
dH7
Stand. Max.
Torque
Max. Speed
Max. Ext Speed
Elevation
A
B
D
F
J
G
L
P
T
Z
Mm
Mm
Nm
rpm
rpm
mm
mm
mm
mm
mm
mm
mm
mm
AFON 37 20 25* 220 2500 2900 18,5 25 85 55 37 M6 35 0,5 70 6
AFON 44 25 32* 315 2100 2250 18,5 25 95 62 44 M6 35 0,5 80 8
AFON 57 30 42* 700 1700 2000 23,5 60 110 75 57 M8 45 0,5 95 8
AFON 72 40 55* 1400 1200 1550 29,5 38 132 90 72 M8 60 1 115 12
AFON 82 55 65* 2000 800 1450 31 40 145 100 82 M10 60 1 125 12
AFON 107 70 85* 3000 600 1300 33 45 170 125 107 M10 65 1 150 12
AFON 127 90 100* 4000 500 1200 58 68 200 145 127 M12 75 1 180 12
Keyway according to DIN 6885 page 3; other according to page 1 Safety coefficient: 2. We keep the right to make modifications for product improvements.
V.01.19.EN Page 21 de 24
RUEDA LIBRE TIPO BTI
BTI RULISA centrifugal elevationof freewheels are designed to work in gearboxes where the true running of the tracks is guaranteed by its closeness to a bearing.
The design has been made to easily fix the outer ring to the high rotating inner ring to the shaft.
Z = number of screws
Size Torque Elev. speed dH7 D L I I₁ max Ø d₁ H7 Ød₂
Ø d₃ Z d₄
Nm rpm min. mm
max.mm
mm mm mm mm mm mm mm
BTI 90 720 660 30 35 125 40 35 2 90 65 108 8 M8
BTI 110 1.500 580 40 50 150 45 40 4 110 90 132 8 M8
BTI 125 2.000 430 50 60 175 60 55 4 125 105 155 8 M10
BTI 140 2.600 400 60 75 190 60 55 4 140 125 165 12 M10
BTI 160 4.600 320 75 95 210 75 70 4 160 45 185 12 M10
BTI 180 5.800 300 95 110 230 75 70 5 180 165 206 12 M12
BTI 210 11.200 245 110 130 270 95 90 7 210 195 240 12 M16
BTI 240 21.000 230 130 155 310 95 90 7 240 225 278 12 M16
BTI 310 31.200 200 155 215 400 100 95 7 310 295 360 12 M20
BTI 340 37.200 190 200 240 440 100 95 7 340 325 390 12 M20
BTI 360 40.200 180 200 250 460 100 95 6 360 345 410 16 M20
BTI 400 54.000 175 200 260 520 105 100 6 400 385 460 16 M24
Keyway according to DIN 6885 page 1 Torque moments listed are nominal.
Maximum driving torques 2 times the nominal torque moment. The outer ring is supplied with ejector holes. Lateral covers can be delivered on request.
We keep the right to make modifications for product improvements.
V.01.19.EN Page 22 de 24
AI – ARI TYPE FREEWHEEL (WITH FLANGE)
These freewheel series of centrifugal elevation are supplied oil‐bath sealeda nd with bearings in order to work outdoors as automatic units. Other types compensating couplings or clamping lateral plates can be delivered upon request.
Up to AI 125 FROM AI‐140 FLANGE FOR ARI
Size
Torque
Elev. speed
D h7
d H7
d₁ I I₁ max
Z d₂ d₃
l₂
l₃
E
O
Nm
rpm mm mm mm mm mm mm mm mm mm mm
AI 90 550 660 125 35 108 95 2,5 6 M 8 20 18 15 100 112
AI 110 1.100 580 150 50 132 90 2,5 8 M 8 25 22 15 120 135
AI 125 1.500 430 175 60 150 117 1,5 10 M 10 32 25 18 140 145
AI 140 2.000 400 190 70 165 117 1,5 10 M 10 38 30 18 150 175
AI 160 3.500 320 210 80 185 146 2 10 M 10 38 30 18 170 185
AI 180 4.400 300 230 90 206 146 2 10 M 12 50 40 19 180 205
AI 210 8.600 245 270 100 240 170 2,5 10 M 16 50 40 30 200 230
AI 240 16.000 230 310 130 278 175 2,5 12 M 16 70 55 30 200 270
AI 310 30.000 200 400 150 360 200 5 12 M 20 70 55 30 225 325
AI 340 35.000 190 440 170 400 240 5 16 M 20 70 55 40 380 360
AI 360 40.000 180 460 180 415 220 5 18 M 20 80 60 45 100 425
AI 400 45.000 175 520 200 470 245 5 18 M 22 100 60 50 450 525
Keyway according to DIN 6885 page 1. Torque: Nominal torques. Max. driving torques 2 times the nominal torque We keep the right to make modifications for product improvements.
V.01.19.EN Page 23 de 24
CAGES FOR FREEWHEELS WITH SPRAGS.
MANUFACTURING JM cages are manufactured with bearing chrome steel of top quality in order to support a high elasticity and, at the same time, great strength and toughness. Every backstop element has an independent ring which guarantees at all times a constant contact with the tracks, outstandingly improving its running at those applications in which it must work as driving element at high frequency. WAYS OF EXTENDING FREEWHEEL LIFE Wear and tear on backstop elements is mainly produced by friction when they are in free turn. The following processes have been studied in order to extend service life S TREATMENT: in the backstop elements surface which gives them a self‐saving coat of great hardness and strength to wear and tear, like hard metals, and which extends service life from 4 up to 20 times. Please, when requesting, add he letter “S” to the cage reference. We keep in researching new coatings that allow for a higher durability and speed. E ELEVATION: outer by means of centrifugal force of the backstop element with a quick outer ring turn in the free direction. Thus there is no contact and, therefore, it achieves no wear during the free rotary motion. Please speak to our engineers about working speeds during the assembly as an overrunning clutch. Please add the letter E on the request. All series with same dimensions and prices can be delivered. ASSEMBLY JM RULISA cages are reversible, that is, the customer can assemble it on one side or on the other in order to have clockwise or counterclockwise free turn. The tracks in which they are assembled must have a 62 2Rc hardness, grinded with no tapering to the specified tolerances and they must have a 1,5‐2 mm hardening depth, in order to achieve maximum life
Size
D
mm
d
mm
De
mm
Max. speed rpm
L
mm
Torque
Nm
L
mm
Torque
Nm
L
mm
Torque
Nm
L
mm
Torque
Nm
External elev. Speed
rpm
JM 55.1 55 37 75 2.500 14,5 120 18,5 170 23,5 240 25 240 2.900
JM 55.2 55 37 75 2.500 14,5 240 18,5 340 23,5 480 25 480 2.900
JM 56.2 56 38 2.500 17 300 2.900
JM 62.1 62 44 90 2.100 14,5 210 18,5 295 23,5 420 25 420 2.250
JM 62.2 62 44 90 2.100 14,5 420 18,5 590 23,5 840 25 840 2.250
JM 68.2 68 50 1.900 14 540 2.200
JM 75.1 75 57 100 1.700 14,5 290 18,5 420 23,5 580 25 580 2.000
JM 75.2 75 57 100 1.700 14,5 580 18,5 840 23,5 1.160 25 1.160 2.000
JM 83.2 83 65 1.400 14 720 1.700
JM 90.1 90 72 125 1.200 14,5 420 18,5 700 23,5 980 25 980 1.550
JM 90.2 90 72 125 1.200 14,5 840 18,5 1.400 23,5 1.960 25 1.960 1.550
JM 98.2 98 80 800 14,5 1.100 1.450
JM 100.1 100 82 150 800 14,5 600 18,5 870 23,5 1.200 25 1.200 1.450
JM 100.2 100 82 150 800 14,5 1.200 18,5 1.740 23,5 2.400 25 2.400 1.450
JM 125.1 125 107 175 600 14,5 900 18,5 1.300 23,5 1.800 25 1.800 1.300
JM 125.2 125 107 175 600 14,5 1.800 18,5 2.600 23,5 3.600 25 3.600 1.300
JM 145.1 145 127 220 500 14,5 1.200 18,5 1.730 23,5 2.400 25 2.400 1.200
JM 145.2 145 127 220 500 14,5 2.400 18,5 3.460 23,5 4.800 25 4.800 1.200
JM 180.1 180 162 250 300 14,5 1.500 18,5 2.160 23,5 3.000 25 3.000 950
JM 180.2 180 162 250 300 14,5 3.000 18,5 4.320 23,5 6.000 25 6.000 950
Safety coefficient 2. – Cages with half backstop elements can be delivered on request. Different dimensions and torque moments that best suit our customer’s requirements are also available with short‐delivery times. Please choose preferably the bold type cages. We keep the right to make modifications for product improvements.
V.01.19.EN Page 24 de 24
ECI CAGES
Centrifugal elevation cages by means of a quick turn of the inner ring or shaft.
Size
Nº elem.
Torque
Nm
Elevation
rpm
Ød0
mm–0,05
Ø D +0,05
mm 0
Ø E min
mm
L
mm
ECI 090 6 550 660 50 90 125 25
ECI 100 9 1.100 580 70 110 150 25
ECI 125 12 1.500 430 85 125 175 40
ECI 140 12 2.000 400 100 140 190 40
ECI 160 15 3.500 320 120 160 210 50
ECI 180 18 4.400 300 140 180 230 50
ECI 210 21 8.600 245 170 210 270 65
ECI 240 24 16.00 230 200 240 310 65
ECI 310 33 26.000 200 270 310 400 65
ECI 340 36 31.000 190 300 340 440 65
ECI 360 39 33.500 180 320 360 460 65
ECI 400 45 45.000 175 360 400 500 65
The tracks where the cage is assembled must be perfectly true running. For ease of assembly, place the cage in the inner ring shaft, inserting the hold down screws between the circlip openings; if necessary, use the ejector threaded lateral holes for assembly. Check the element rotating direction before starting the assembly. The raceway must have a hardening and grinding coat depth of 1,5 to 2 mm; core resistance of at least 800N; RA medium roughness=0,006 mm; and 0,003 mm in 10 mm tapering. If is advisable to make a chamber in the rings for ease of mounting.
LUBRICATION If the element has been designed to work in a free system with the elements already elevated, it does not need lubrication except a thin oil coat when assembling. If a high number of performances is expected or if the elements are causing friction in free turn below the centrifugal elevating speed; then a proper lubrication with an hydraulic type oil of 4° to 6° Engler at 20° C, is required. The oil change is advisable, in the first assembly, after 100 hours´ work and, later on every 2000 hours along with thorough check of the plug washers. If the assembly works as an automatic overrunning clutch between two independent drives, when the rotating speed is reduced in order for the assembly to be dragged with the lowest speed element, the customer has to bear in mind that the speed must be smaller than 40 % of the driving speed by centrifugal force, in order to guarantee all the backstop elements contact and their readiness to block. Please speak to our or engineers about other cage dimensions, other driving torques or other elevation speeds depending on the spring pressure against the backstop elements. We keep the right to make modifications for product improvements.
RULITRANS
INGENIER
OS S.L.
San Vicente, 8 - Edificio Albia 1 - 6º - Dpto. 248001 Bilbao (Bizkaia)
Telf. +34 94 423 97 27 - Fax +34 94 423 95 26www.rulitrans.com
E-mail: [email protected]
RULITRANS
INGENIER
OS S.L.
AUTOMATIZACIONES INDUSTRIALES- Ingeniería de diseño- Proyectos llave en mano- Talleres de mecanización
ESPECIALISTAS EN LA TRANSMISIÓN- Ruedas libres- Limitadores de par- Embragues bidireccionales tipo IR- Embragues y frenos- Elementos cónicos de fijación- Células de carga- Variadores de velocidad- Tarjetas maniobras eléctricas- Acoplamientos elásticos
Andrés Cortina 2 A - 3
Algorta (Bizkaia) 48993 Tno: 946567955
Limitadores de par
Andrés Cortina 2 A - 3 Algorta (Bizkaia) 48993 SPAIN Tfno: +34 946567955 [email protected]